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Self-extending type bracket flexible connection ring compressing mechanism

A technology of flexible connection and pressing mechanism, applied in the direction of brackets, etc., can solve the problems of poor flexibility, large friction, slippage, etc., and achieve the effects of simple structure, reduced cross-section and good flexibility

Active Publication Date: 2007-09-19
BEIJING BALANCE MEDICAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The shortcoming of this method is: 1, the sheath tube of the delivery system of existing self-expanding type stent and the stent under radial compression are relatively hard, and flexibility is poor
2. The friction between the self-expanding stent and the sheath of the delivery system is large, which affects the accurate release of the stent; under high compression of the self-expanding stent, the retraction of the sheath will encounter great resistance; and difficulties will also cause the operator to displace the fixed support
3. The thin sheath that is closed laterally prevents the guide wire from passing through the radially compressed stent laterally from inside to outside or from outside to inside. The guide wire obstructs the retraction of the sheath, preventing radial expansion of the self-expanding stent
However, there are still the following disadvantages: 1. The tearable membrane hinders the guide wire from passing through the radially compressed stent laterally from inside to outside or from outside to inside; the only place where the lateral guide wire can pass is the opening of the tearable membrane , but the lateral wire is limited to this only rotation angle
2. After the tearable film fixed on the stent is torn off, the stent expands radially. If the length of the stent becomes shorter after radial expansion, the length of the tearable film remains the same but is greater than the length of the stent after radial expansion. If it is too long Membranes impede blood flow
But there are still the following disadvantages: 1. The stent is only radially compressed at the wire wrapping point. If the stent is long, the overall radial compression of the stent is not enough, or many wrapping wires are required, which makes the structure very complicated; or requires a thin sheath at the same time Further radial compression outside the stent, which makes it lose its open structural advantage
2. If the surrounding wire is only around the outside of the bracket, there is a danger of slipping off from both ends of the bracket; if the surrounding wire shuttles inside and outside the bracket, there is no danger of being slipped off, but the friction with the bracket increases

Method used

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  • Self-extending type bracket flexible connection ring compressing mechanism
  • Self-extending type bracket flexible connection ring compressing mechanism
  • Self-extending type bracket flexible connection ring compressing mechanism

Examples

Experimental program
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Embodiment Construction

[0039] Referring to Fig. 1, refer to Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, the self-expanding stent flexible connection ring compression mechanism of the present invention is used to compress the self-expanding stent when it is implanted in the heart vessel. The self-expanding stent can be radially compressed by a variety of open delivery systems and then implanted into the heart vessel for release.

[0040] The self-expanding stent involved in the present invention is a radially deformable tubular network structure, as shown by the number 1 in the above figures. A plurality of deformable units 101 are formed between the network cables of the bracket, a plurality of open wire bends 102 are formed at both ends of the bracket, a plurality of closed wire eyes 103 are connected to the bracket, and a plurality of intersection points 104 are formed between the network cables of the bracket . Self-expanding stents include covered stents and stent-valve. It can be woven from wires...

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PUM

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Abstract

A self-expandable bracket flexible connecting ring press mechanism, includes an inner tube and a locking wire for constituting the transporting and discharging system, and a plurality of flexible connecting rings for pressing the bracket, wherein the plurality of flexible connecting rings are respectively connected on the bracket, wherein at least one flexible connecting ring passes through the bracket and the side opening of the inner tube and are provisionally passed through by the locking wire to block. The self-expandable bracket flexible connecting ring press mechanism of the invention can expediently make the radial compression on the self-expandable bracket at the process of transporting and discharging the self-expandable bracket, and expediently releases the compression after transporting and discharging to the proper position, and the self-expandable bracket fast releases the expand. The invention has simple structure, thin thickness, small radial expanding friction on the self-expandable bracket, easy operation.

Description

technical field [0001] The invention relates to a compression mechanism for various stents implanted in human heart vessels or other luminal organs during delivery, in particular to a self-expanding stent flexible connection ring compression mechanism. Background technique [0002] The heart is the most important organ of the human body. The heart is divided into two parts, the left and the right, and each part includes the atrium and the ventricle. The left and right atria and right and left ventricles are separated by the atrial and ventricular septum, respectively. There are four heart valves in the heart, namely the tricuspid valve, pulmonary valve, mitral valve and aortic valve. In the human blood circulation mechanism, the four heart valves play a vital role. The hypoxic blood from the systemic circulation mechanism enters the right atrium through the vena cava, and then enters the right ventricle through the tricuspid valve. The contraction of the right ventricle pu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61F2/82
Inventor 王蓉珍
Owner BEIJING BALANCE MEDICAL
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